Post on 06-Nov-2021
transcript
Photolithography Mask Documentation
EE432/532
Last Updated: 12 February 2013
Table of Contents List of Figures ................................................................................................................................................ 2
About this Document .................................................................................................................................... 2
Color Key ....................................................................................................................................................... 2
Mask Overview ............................................................................................................................................. 3
Die Overview ................................................................................................................................................. 4
List of Devices and Sizes ................................................................................................................................ 5
Devices (per die) ....................................................................................................................................... 5
Sizing ......................................................................................................................................................... 5
Contacts ................................................................................................................................................ 5
Alignment Marks ................................................................................................................................... 5
MOSFETs ............................................................................................................................................... 5
NPN BJTs ............................................................................................................................................... 5
TLM Patterns ......................................................................................................................................... 5
Van der Pauw Patterns ......................................................................................................................... 6
PMOS and NMOS Capacitor .................................................................................................................. 6
NAND, NOR, and Inverter ..................................................................................................................... 6
Alignment Marks ........................................................................................................................................... 6
NMOS Transistor Walkthrough ..................................................................................................................... 8
Mask 1 P-Well Diffusion ............................................................................................................................ 9
Mask 2 PMOS Diffusion............................................................................................................................. 9
Mask 3 NMOS Source and Drain Diffusion ............................................................................................. 10
Mask 4 Gate Oxide .................................................................................................................................. 10
Mask 5 Contacts ...................................................................................................................................... 11
Mask 6 Metal .......................................................................................................................................... 11
TLM Measurements .................................................................................................................................... 12
Additional Figures ....................................................................................................................................... 13
NAND....................................................................................................................................................... 13
NOR ......................................................................................................................................................... 14
Inverter ................................................................................................................................................... 15
BJT ........................................................................................................................................................... 16
1 | P a g e
List of Figures Figure 1: Mask Layout ................................................................................................................................... 3 Figure 2: Die Layout ...................................................................................................................................... 4 Figure 3: Alignment Marks ............................................................................................................................ 6 Figure 4: Alignment Marks Layer by Layer .................................................................................................... 7 Figure 5: NMOS -- W=20 ๐๐, L=5 ๐๐30T ......................................................................................................... 8 Figure 6: NMOS after P-Well ......................................................................................................................... 9 Figure 7: NMOS after PMOS diffusion .......................................................................................................... 9 Figure 8: NMOS after NMOS diffusion ........................................................................................................ 10 Figure 9: NMOS after gate oxide pattern ................................................................................................... 10 Figure 10: NMOS after contact patterning ................................................................................................. 11 Figure 11: NMOS after metal ...................................................................................................................... 11 Figure 12: P-Well TLM ................................................................................................................................. 12 Figure 13: NAND Gate ................................................................................................................................. 13 Figure 14: NOR Gate ................................................................................................................................... 14 Figure 15: Inverter ...................................................................................................................................... 15 Figure 16: NPN BJT with ๐จ๐= 50๐๐ by 50๐๐30T .......................................................................................... 16
About this Document This document is a guidance to help EE 432/532 instructors and students to understand the new lithography masks set and mask alignment. This document would contain an overview of the new masks, an introduction of the components the new masks would create, the details of devices on the wafer and their characteristics, and the explanation of the new alignment marks usage.
Color Key
P-Well
Diffusion PMOS
Diffusion NMOS
Diffusion Gate Oxide
Contacts Metal
2 | P a g e
Mask Overview
Figure 1: Mask Layout
The photolithography mask for EE 432/532 has 37 dies lined up to be evenly spread out on the wafer. There are 6 individual masks, each used for a different part of the devices. The mask also has a wafer sized ring on it to help with the initial alignment of the mask to the mask aligner.
3 | P a g e
Die Overview
Figure 2: Die Layout
Each die contains a total of 39 devices. The devices are laid out on a grid for ease of numbering. The 3-terminal and 4-terminal transistors in the top left area of the die are number by row and column. The other devices are lined up on the grid on the bottom and right edges of the die.
4 | P a g e
List of Devices and Sizes
Devices (per die) Device # of Devices 3-terminal PMOS 9 3-terminal NMOS 9 4-terminal PMOS 3 4-terminal NMOS 3 NPN BJTs 3 TLM patterns 4 VDP patterns 3 NMOS capacitor 1 PMOS capacitor 1 NAND 1 NOR 1 Inverter 1 Total 39
Sizing
Contacts All contacts are 10 ๐๐ by 10 ๐๐.
Alignment Marks The top two crosses are 100 ๐๐ by 100 ๐๐. The bottom two crosses are 50 ๐๐ by 50 ๐๐.
MOSFETs ID Number Channel Width (๐๐) Channel Length (๐๐) 11 20 5 12 30 10 13 60 20 21 30 5 22 60 10 23 120 20 31 45 5 32 90 10 33 180 20
NPN BJTs There are three sizes of BJTs. They are characterized by their emitter area. The sizes are: 50 ๐๐ by 50 ๐๐, 75 ๐๐ by 75 ๐๐, and 100 ๐๐ by 100 ๐๐.
TLM Patterns The TLM pattern contacts are 50๐๐ by 100๐๐. See the section on TLM patterns for more details.
5 | P a g e
Van der Pauw Patterns The VDP body is 100๐๐ by 100๐๐. Each leg is 20๐๐ wide with a single contact.
PMOS and NMOS Capacitor The area for each capacitor is 400๐๐ by 400๐๐.
NAND, NOR, and Inverter All the transistors in the NAND, NOR, and Inverter have a channel length of 10 ๐๐ and a channel width of 65 ๐๐.
Alignment Marks
Figure 3: Alignment Marks
There are 4 different sets of alignment marks in the top right corner of each die. Half of these sets use a plus-sign type alignment, while the other half uses a square type alignment. The alignment begins with the p-well layer, either showing up as a plus or a square. This sets the initial alignment that the next mask will line up next to. The PMOS layer will then be lined up to the p-well layer, matching the square to the plus-sign, and the plus-sign to the square. This layer will also add a new plus-sign and square to be used to line up the next mask. This process goes on until the metal layer, where there will not be an extra mark at the end.
6 | P a g e
Figure 4: Alignment Marks Layer by Layer
7 | P a g e
NMOS Transistor Walkthrough
Figure 5: NMOS -- W=20 ๐๐, L=5 ๐๐
8 | P a g e
Mask 1 P-Well Diffusion
Figure 6: NMOS after P-Well
This layer adds the p-well layer to the wafer. This adds most of the lettering to the mask. The rest of the transistor will be built within this well.
Mask 2 PMOS Diffusion
Figure 7: NMOS after PMOS diffusion
This creates a highly doped p-type region so contact can be made to the bulk of the transistor. In four terminal devices this is a separate contact. In a three terminal device this connects to the source of the transistor.
9 | P a g e
Mask 3 NMOS Source and Drain Diffusion
Figure 8: NMOS after NMOS diffusion
This creates a highly doped n-type region for the NMOS source and drain. The space between the source and drain is the channel. This space defines the W and L of the transistor.
Mask 4 Gate Oxide
Figure 9: NMOS after gate oxide pattern
This patterns the area where a thin layer of oxide will be grown. It overlaps with the source and drain by 2.5๐๐. This allows for a margin of error when aligning.
10 | P a g e
Mask 5 Contacts
Figure 10: NMOS after contact patterning
The contact layer adds the contacts to the device, allowing the metal to connect to the device.
Mask 6 Metal
Figure 11: NMOS after metal
This layer is a light field mask. This means that most of the area will be transparent and where the metal will be patterned is opaque. The metal finishes connecting the devices, as well as gives an relatively large metal area for probes to test.
11 | P a g e
TLM Measurements
Figure 12: P-Well TLM
The TLM patterns in our dies are used to determine the resistance of the contacts, as well as the substrate. Each contact on the TLM pattern is spaced out twice as much as the last. To calculate the resistance, a voltage is applied and the current is measured. Dividing the current from the voltage gives the resistance. When you gather several of these measurements for different distances, you can create a resistance vs. distance graph. The slope of the line is the sheet resistance, and the y intercept is 2 times the contact resistance.
The distance between each of the contacts is shown in the table below.
D1 10 ๐๐ D2 20 ๐๐ D3 40 ๐๐ D4 80 ๐๐ D5 160 ๐๐ The contact size is 50๐๐ by 100๐๐. The height of the pattern is 120๐๐.
12 | P a g e
Additional Figures
NAND
Figure 13: NAND Gate
The gate is powered with V+ and GND. The inputs are A and B and the output is O. This gate implements the truth table above.
Truth Table A B Output 0 0 1 0 1 1 1 0 1 1 1 0
13 | P a g e
NOR
Figure 14: NOR Gate
The gate is powered with V+ and GND. The inputs are A and B and the output is O. This gate implements the truth table above.
Truth Table A B Output 0 0 1 0 1 0 1 0 0 1 1 0
14 | P a g e
Inverter
Figure 15: Inverter
The gate is powered with V+ and GND. The input is I and the output is O. This gate implements the truth table above.
Truth Table I Output 0 1 1 0
15 | P a g e
BJT
Figure 16: NPN BJT with ๐จ๐= 50๐๐ by 50๐๐
This BJT is one of three NPNs on each die. This is the smallest version.
16 | P a g e